How scientists are turning the famous carbon molecule C60 into a smart, pH-responsive carrier for targeted drug delivery by conjugating it with proteins.
Discover how industrial biotransformation uses enzymes and microorganisms to revolutionize manufacturing processes across pharmaceuticals, energy, and sustainable materials.
Discover how functional metagenome mining unlocks nature's hidden potential to find enzymes that break down plastic, create medicines, and produce clean fuel.
Exploring the fascinating world of flavin-dependent monooxygenases and their applications in biosynthesis, pharmaceuticals, and environmental science.
Explore how molecular modeling methodologies act as the digital architect of modern medicine, enabling the design of life-saving drugs through computational power.
Explore how engineered enzymes are revolutionizing pharmaceutical manufacturing, ensuring higher purity, safety, and sustainability in drug production.
Discover how scientists are genetically engineering Salmonella bacteria to overcome tumor barriers and deliver targeted cancer therapy.
Explore how microfluidic systems revolutionize biocatalysis research, enabling high-throughput experimentation and generating valuable data for machine learning applications.
Exploring how flow-induced microfluidic assembly is revolutionizing biocatalysis materials through precision engineering and sustainable manufacturing approaches.
Discover Cyrene, the sustainable bio-based solvent revolutionizing chemistry with its eco-friendly properties and diverse applications in pharmaceuticals, nanomaterials, and more.